CN215163483U - Towel capable of absorbing water at ultra-fast speed - Google Patents

Abstract

The utility model discloses a towel that ultra-fast absorbs water, including the towel main part, the towel main part is interweaved by warp, wool warp and woof and forms, wherein: the ground warp yarns and the weft yarns are interwoven to form a terry stitch; wool warp and woof are interweaved and are formed ground and organize, and pile stitch distributes on the outward flange that ground was organized, the utility model is suitable for a towel, and ground is organized and is interweaved by wool warp and woof and form, and wool warp adopts three layer construction, and three layer construction is respectively: the moisture-conducting fiber layer is positioned on the surface layer, the water-absorbing fiber layer is positioned on the inner layer, and the cavity layer is positioned on the core part, so that when the towel is used, the moisture-conducting fiber layer on the outer layer of the wool warp yarns is in contact with the water surface of water, and the moisture-conducting fiber section in the moisture-conducting fiber layer is of a strip-shaped hollow structure and has a siphon effect, so that the surface tension of water can be destroyed, water is rapidly conducted to the water-absorbing fiber layer and the cavity layer, and the water-absorbing fiber layer and the cavity layer rapidly absorb a large amount of water.

Description

Towel capable of absorbing water at ultra-fast speed

Technical Field

The utility model belongs to the technical field of the towel, specifically be a towel that ultra-fast absorbs water.

Background

The towel is a fabric which takes textile fiber as raw material and has terry or terry warp cut pile on the surface, is used for washing, wiping, warming, decoration and other purposes in daily life, and is divided into a single-sided towel and a double-sided towel according to the distribution situation of the terry loops, wherein the towel is a fabric formed by interweaving three yarns, namely, the hair warp, the ground warp and the weft;

the towel in the prior art has poor water absorption and too low water absorption speed, and cannot meet the requirement of the towel for winter swimming, medical use and infant washing to absorb water quickly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a towel which absorbs water at an ultra-fast speed.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an ultra-fast water-absorbing towel, comprising a towel main body, wherein the towel main body is formed by interweaving ground warp yarns, wool warp yarns and weft yarns, wherein:

the ground warp yarns and the weft yarns are interwoven to form a looped pile structure;

the wool warp yarns and the weft yarns are interwoven to form a ground weave, and the wool loop weave is distributed on the outer edge of the ground weave.

Preferably, the wool warp yarns are sponge yarns, the wool warp yarns are of a three-layer structure, and the three-layer structure is as follows: the wet-conducting fiber layer is positioned on the surface layer, the water-absorbing fiber layer is positioned on the inner layer, and the cavity layer is positioned on the core part.

Preferably, the ground warp yarns and the weft yarns are all water-absorbing yarns, the ground warp yarns and the weft yarns are both in a double-layer structure, the double-layer structure is an outer layer and a core layer, the outer layer is composed of a moisture-conducting fiber layer and an inner water-absorbing fiber layer, and the core layer is a cavity layer.

Preferably, the moisture conducting fiber section in the moisture conducting fiber layer is a strip-shaped hollow structure.

The utility model discloses in, ground tissue is interweaved by wool warp and woof and forms, and wool warp adopts three layer construction, and three layer construction is respectively: the wet fiber layer that leads who is located the top layer, be located the absorbent fiber layer of inlayer and be located the cavity layer of core, such structural arrangement makes this towel when using, at first the outer wet fiber layer that leads of wool warp contacts with the surface of water, because lead wet fiber cross-section in the wet fiber layer and be strip hollow structure, have "siphon" effect, consequently it can destroy the surface tension of water, conduct water to absorbent fiber layer and cavity layer fast in, absorbent fiber layer and cavity layer absorb a large amount of water fast, make wool warp reach similar sponge and have quick water absorption function. Meanwhile, as the ground warp yarns, the wool warp yarns and the weft yarns are interwoven with one another, the wool warp yarns, the ground warp yarns and the weft yarns quickly conduct water through the interweaving points, and the purpose of quickly absorbing water is achieved;

the utility model discloses in, ground warp and woof in the towel all adopt bilayer structure, wherein, bilayer structure is outer and sandwich layer respectively, wherein the outer fiber layer of leading is become with the fibrous layer that absorbs water by leading wet fiber layer, the sandwich layer is the cavity layer, it is strip hollow structure to lead wet fiber cross-section in the wet fiber layer, wherein, can absorb and store a large amount of water through the cavity layer, and lead wet fiber layer and the fibrous layer that absorbs water and interweave and form the skin, such interact through leading wet fiber layer and fibrous layer that absorbs water, can make ground warp and woof pass through "lead wet-absorb moisture- … … -lead wet-absorb moisture" fast, lead water to the cavity layer in ground warp and the woof in, reach the effect of quick absorption of water;

to sum up, the towel of the utility model has fast water absorption speed and large water absorption capacity.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the middle ground tissue of the present invention;

FIG. 3 is a schematic view of the structure of the middle loop stitch of the present invention;

FIG. 4 is a schematic cross-sectional view of a wool warp yarn of the present invention;

FIG. 5 is a schematic cross-sectional view of a warp yarn of the present invention;

FIG. 6 is a schematic cross-sectional view of a wool warp yarn in the present invention;

FIG. 7 is a schematic cross-sectional view of a ground warp object of the present invention.

Reference numerals: 1. a towel main body; 101. a loop stitch; 102. ground tissue; 3. a ground warp yarn; 4. a wool warp yarn; 5. a weft yarn; 6. a moisture-wicking fibrous layer; 7. a water-absorbent fibrous layer; 8. a cavity layer.

Detailed Description

The following will further describe a specific embodiment of the towel with ultra-fast water absorption according to the present invention with reference to fig. 1-6. The towel for ultra-fast water absorption of the present invention is not limited to the description of the following embodiments.

Example 1:

the present embodiment provides a specific structure of an ultra-fast water absorption towel, as shown in fig. 1-4, comprising a towel main body 1, wherein the towel main body 1 is formed by interweaving ground warp 3, wool warp 4 and weft 5, wherein:

the ground warp 3 and the weft 5 are interwoven to form a terry stitch 101;

pile warp yarn 4 and weft yarn 5 are interwoven to form ground stitch 102, and pile stitch 101 is distributed on the outer edge of ground stitch 102.

Example 2:

the present embodiment provides a specific structure of an ultra-fast water absorption towel, as shown in fig. 1-5, comprising a towel main body 1, wherein the towel main body 1 is formed by interweaving ground warp 3, wool warp 4 and weft 5, wherein:

the ground warp 3 and the weft 5 are interwoven to form a terry stitch 101;

pile warp yarn 4 and weft yarn 5 are interwoven to form ground stitch 102, and pile stitch 101 is distributed on the outer edge of ground stitch 102.

Wool warp yarn 4 adopts sponge yarn, and wool warp yarn 4 adopts three layer construction, and three layer construction is respectively: the moisture-conducting fiber layer 6 is positioned on the surface layer, the water-absorbing fiber layer 7 is positioned on the inner layer, and the cavity layer 8 is positioned on the core part, and the cross section of the moisture-conducting fiber in the moisture-conducting fiber layer 6 is of a strip-shaped hollow structure.

The following can be seen by combining example 1 with example 2:

because the ground weave 102 is formed by interweaving the wool warp yarns 4 and the weft yarns 5, the wool warp yarns 4 adopt a three-layer structure, and the three-layer structure is respectively as follows: the structure arrangement comprises a moisture-conducting fiber layer 6 positioned on the surface layer, a water-absorbing fiber layer 7 positioned on the inner layer and a cavity layer 8 positioned on the core part, so that a large amount of water can be stored through the cavity layer 8, and the water absorption capacity of the towel is greatly improved;

when the towel is used, the moisture-conducting fiber layer 6 on the outer layer of the wool warp yarns 4 is in contact with the water surface of water, the moisture-conducting fiber section in the moisture-conducting fiber layer 6 is of a strip-shaped hollow structure and has a siphon effect, so that the surface tension of water can be destroyed, the water is quickly conducted to the water-absorbing fiber layer 7 and the cavity layer 8, the water-absorbing fiber layer 7 and the cavity layer 8 quickly absorb a large amount of water, and the wool warp yarns 4 have a quick water absorption function like a sponge. Meanwhile, as the ground warp yarns 3, the wool warp yarns 4 and the weft yarns 5 are interwoven with each other, the wool warp yarns 4, the ground warp yarns 3 and the weft yarns 5 quickly conduct water through the interweaving points, and the purpose of quickly absorbing water is achieved.

Example 3:

the present embodiment provides a specific structure of an ultra-fast water absorption towel, as shown in fig. 1-4 and fig. 6, comprising a towel main body 1, wherein the towel main body 1 is formed by interweaving ground warp 3, wool warp 4 and weft 5, wherein:

the ground warp 3 and the weft 5 are interwoven to form a terry stitch 101;

pile warp yarn 4 and weft yarn 5 are interwoven to form ground stitch 102, and pile stitch 101 is distributed on the outer edge of ground stitch 102.

The ground warp 3 and the weft 5 both adopt absorbent yarns, the ground warp 3 and the weft 5 both adopt a double-layer structure, wherein the double-layer structure is an outer layer and a core layer respectively, the outer layer consists of a moisture-conductive fiber layer 6 and an inner water-absorbent fiber layer 7, the core layer is a cavity layer 8, and the cross section of the moisture-conductive fiber in the moisture-conductive fiber layer 6 is a strip-shaped hollow structure.

Example 4:

the present embodiment provides a specific structure of an ultra-fast water absorption towel, as shown in fig. 1-6, comprising a towel main body 1, wherein the towel main body 1 is formed by interweaving ground warp 3, wool warp 4 and weft 5, wherein:

the ground warp 3 and the weft 5 are interwoven to form a terry stitch 101;

pile warp yarn 4 and weft yarn 5 are interwoven to form ground stitch 102, and pile stitch 101 is distributed on the outer edge of ground stitch 102.

Wool warp yarn 4 adopts sponge yarn, and wool warp yarn 4 adopts three layer construction, and three layer construction is respectively: a moisture-conductive fibre layer 6 at the surface layer, a water-absorbent fibre layer 7 at the inner layer and a cavity layer 8 at the core.

The ground warp 3 and the weft 5 both adopt absorbent yarns, the ground warp 3 and the weft 5 both adopt a double-layer structure, wherein the double-layer structure is an outer layer and a core layer respectively, the outer layer consists of a moisture-conductive fiber layer 6 and an absorbent fiber layer 7, the core layer is a cavity layer 8, and the moisture-conductive fiber section in the moisture-conductive fiber layer 6 is a strip-shaped hollow structure.

Combine example 3-example 4:

the ground warp 3 and the weft 5 in the towel both adopt absorbent yarns, the ground warp 3 and the weft 5 both adopt a double-layer structure, wherein the double-layer structure is an outer layer and a core layer respectively, the outer layer consists of a moisture-conducting fiber layer 6 and an absorbent fiber layer 7, the core layer is a cavity layer 8, the moisture-conducting fiber section in the moisture-conducting fiber layer 6 is a strip-shaped hollow structure, a large amount of water can be absorbed and stored through the cavity layer 8, and the moisture-conducting fiber layer 6 and the absorbent fiber layer 7 are interwoven to form the outer layer, so that the ground warp 3 and the weft 5 can quickly pass through 'moisture-conducting-absorbing- … … -moisture-conducting-absorbing' through the interaction of the moisture-conducting fiber layer 6 and the absorbent fiber layer 7 to guide the water into the cavity layer 8 in the ground warp 3 and the weft 5, and the effect of quick water absorption is achieved.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (4)

1. An ultra-fast water-absorbing towel, comprising a towel main body (1), characterized in that: the towel main body (1) is formed by interweaving ground warp (3), wool warp (4) and weft (5), wherein:

the ground warp (3) and the weft (5) are interwoven to form a looped pile stitch (101);

the wool warp yarns (4) and the weft yarns (5) are interwoven to form a ground weave (102), and the pile loop weaves (101) are distributed on the outer edge of the ground weave (102).

2. The ultra-fast water-absorbing towel according to claim 1, wherein: the wool warp yarns (4) are sponge yarns, the wool warp yarns (4) are of a three-layer structure, and the three-layer structure is as follows: a moisture-conductive fiber layer (6) positioned on the surface layer, a water-absorbing fiber layer (7) positioned on the inner layer and a cavity layer (8) positioned on the core part.

3. The ultra-fast water-absorbing towel according to claim 1, wherein: the ground warp (3) and the weft (5) both adopt absorbent yarns, the ground warp (3) and the weft (5) both adopt a double-layer structure, wherein the double-layer structure is an outer layer and a core layer respectively, the outer layer consists of a moisture-conducting fiber layer (6) and an inner water-absorbing fiber layer (7), and the core layer is a cavity layer (8).

4. An ultra-fast water-absorbing towel according to any of claims 2-3, wherein: the cross section of the moisture-conducting fiber in the moisture-conducting fiber layer (6) is of a strip-shaped hollow structure.

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